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A rigorous and relatable text for today's biochemistry student
Drawing on more than three decades of teaching experience, Roger Miesfeld and Megan McEvoy created a book that is both a learning tool for students and a teaching tool for instructorsÑone that delivers exceptionally readable explanations, stunning graphics, and rigorous content. Relevant everyday biochemistry examples make clear why biochemistry matters in a way that develops studentsÕ knowledge base and critical thinking skills. The second edition includes exciting new Your Turn critical thinking pedagogy, a thoughtful balance of biology and chemistry, a compelling ebook featuring 3D molecular images, videos, animations, and more.
This text explains the key biochemical and cell biological principles behind some of today's most commonly used applications of molecular genetics, using clear terms and well-illustrated flow schemes. The book is divided into several sections and moves from basic to advanced topics while providing a concise overview of fundamental concepts in modern biotechnology. Each chapter concludes with a Laboratory Practicum describing a hypothetical research objective and the sequence of steps that are most often used to investigate biological questions using molecular genetic methods. In addition, the book provides informative summaries of the latest advances in molecular genetics, using attractive illustrations and a comprehensive reference list. This text also introduces the use of Internet resources through the World Wide Web as a powerful new tool in molecular genetic research. Seven appendices are included in the book, providing a convenient information resource for properties of nucleic acids, protein and restriction enzymes, a description of common E. coli genetic markers and gel electrophoresis parameters, as well as a list of useful Internet address sites.
Biochemistry promotes understanding of biochemical concepts through highly readable chapters that consistently integrate stunning graphics with text. Its distinctive table of contents highlights how biochemical processes work, and applications to everyday biochemistry ensure that students develop a complete understanding of why biochemistry matters.
Analytical Molecular Biology illustrates the importance of simple analytical methods applied to some basic molecular biology problems, with an emphasis on the importance of biological problems, rather than the complexity of mathematics. First, the book examines crucial experimental data for a specific problem. Mathematical models will then be constructed with explicit inclusion of biological facts. From such models, predictions can be deduced and then suggest further experimental studies. A few important molecular biology problems will be discussed in the order of the complexity of the mathematical models. Based on such illustrations, the readers can then develop their own analytical methods to study their own problems. This book is for anyone who knows they need to learn how to apply mathematical models to biology, but doesn't necessarily want to, from practicing researchers looking to acquire more analytical tools to advanced students seeking a clear, explanatory text.
RNA Biochemistry and Biotechnology describes various aspects of nucleic acid and protein structure, mainly RNA structure and proteins, interacting with specific RNA species. Papers deal with DNA protein interactions, telomerase, aminoacyl-tRNA synthetases, elongation factor Tu, DNA repair, RNA structure, NMR technology, RNA aptamer interaction of biological macromolecules with metal ions. Two papers deal with theoretical aspects of RNA structure production and computer modelling. Many papers describe the possibility of commercial application of RNA biotechnology. One article discusses the impact of direct democracy on basic science supporting biotechnology. Readership: Advanced graduate students, Ph.D. students and young scientists as well as specialists in the field.
Chromosome biology has been brought to a golden age by phenomenal advanced in molecular genetics and techniques. This is true in the plant arena, and it is becoming increasingly true in animal studies, where chromosomes are more difficult to work with. With advanced knowledge of transformation, scientists can tell exactly where a new element enters a chromosome. Conversely, molecular biologists can make large mistakes if they do not understand the behavior of chromosomes. Written by internationally recognized experts in the field, this book is the most authoritative work on the subject to date. Students of genetics, crop science and plant breeding, entomology, animal science, and related fields will benefit from this comprehensive and practical textbook.
Biochemistry: An Integrative Approach with Expanded Topics is addressed to premed, biochemistry, and life science majors taking a two-semester biochemistry course. This version includes all 25 chapters, offering a holistic approach to learning biochemistry. An integrated, skill-focused approach to the study of biochemistry and metabolism Biochemistry integrates subjects of interest to undergraduates majoring in premed, biochemistry, life science, and beyond, while preserving a chemical perspective. Respected biochemistry educator John Tansey takes a unique approach to the subject matter, emphasizing problem solving and critical thinking over rote memorization. Key concepts such as metabolism...
The book has primarily been aimed at to adequately introduce the basic concepts in soil microbiology and soil biochemistry with thrust on understanding the various microbial processes occurring in soil. The book is expected to be useful to undergraduate and postgraduate students, teachers and researchers dealing with agriculture, horticulture and forestry in general and agricultural microbiology, soil science and environmental sciences in particular.
Biochemistry and Physiology oj Plant Hormones is intended primarily as a textbook or major reference for a one-term intermediate-level or advanced course dealing with hormonal regulation of growth and development of seed plants for students majoring in biology, botany, and applied botany fields such as agronomy, forestry, and horticulture. Additionally, it should be useful to others who wish to become familiar with the topic in relation to their principal student or professional interests in related fields. It is assumed that readers will have a background in fundamental biology, plant physiology, and biochemistry. The dominant objective of Biochemistry and Physiology oj Plant Hor mones is t...